Mounting system

ABSTRACT

A mounting system with a receiver arrangement having a double sided configuration, the bushing having an inner passage and an oppositely facing outer surface, the outer bushing surface having at least one receiver bearing surface shaped to engage a bearing surface of the mounting opening to align the receiver laterally within the opening, the bushing being locked or lockable within a mounting opening and further including two locking arrangements for allowing the selectively locking of a shank from either end.

This application is a continuation-in-part application of prior pendingU.S. patent application Ser. No. 13/238,936 filed on Sep. 21, 2011(still pending), which is a continuation-in-part application of priorpending U.S. patent application Ser. No. 12/754,026 filed on Apr. 5,2010 (still pending) and which claims priority in U.S. ProvisionalPatent Application Ser. No. 61/166,288 that was filed on Apr. 3, 2009;all of which are incorporated by reference herein.

This invention of this application relates generally to the art ofmounting systems and, more particularly, to a mounting system used as aquick-change mounting and location system for tooling and the like.

Mounting systems are known in the art and have been used over the yearsto accurately mount one structure to a substrate structure. With respectto the invention of this application, it has been found that themounting system works particularly well in the accurate mounting of afixture plate onto a subplate wherein the subplate can be fixed relativeto a machining table wherein this application will be described withreference to these structures but has broader application wherein thisdescription should not be limiting in nature.

INCORPORATION BY REFERENCE

Quick-change locking systems have been used over the years and are shownin the attached pages, which we relate to Assignee's BALL LOCK mountingsystem, which are incorporated by reference herein, for showing thesame. Also incorporated by reference is U.S. Pat. No. 2,707,419, toSchron which discloses a system for locating a fixture plate and isincorporated by reference herein for showing the same.

BACKGROUND OF THE INVENTION

Again, the invention of this application relates to mounting system andwill be described in connection with fixture plates and subplates;however, the invention of this application has a much broaderapplication and can be used in connection with a wide range ofquick-change systems and even long-term mounting systems, which areknown in the art. Mounting systems have been used over the years for awide range of applications and can be used to quickly and accuratelylocate and lock a fixture plate to a subplate. In general terms, themounting systems are comprised of three general components. Theseinclude a locating shank, a liner bushing, and a receiver bushing.

The receiver bushing is mounted to the subplate or machine table, andthe liner bushing is mounted to the fixture plate. The locating shank isthen positioned through the liner and into the receiver to provide bothan accurate location and a locking of the fixture plate to the subplate.This locking action typically takes the form of either a threadedengagement or Assignee's BALL LOCK locking system.

As is known in the art, more than one set of the mounting systems can beused to accurately locate the fixture plate to the subplate. In thisrespect, if a single mounting system is used without any other locatingdevice, the fixture plate would rotate about the shank axis. This wouldcause the fixture plate to become misaligned with the subplate.Therefore, more than one mounting system is typically used in thesemounting arrangements. However, it has been found that the mountingarrangements can include both positioning mounting systems and holdingmounting systems. More particularly, in that, the positioning of afixture plate to a subplate is essentially a two-dimensionalorientation; two mounting systems can be used to control the positioningof the fixture plate relative to the subplate. Then, additional mountingsystems can be used to help hold the fixture plate relative to thesubplate even though these other mounting systems do not control thepositioning of the fixture plate relative to the subplate. For thesesystems that are used for holding only, the liner does not need to bepositioned within the fixture plate. Conversely, the opening in thefixture plate just needs to be larger than the shaft portion of theshank to allow the free passage of the shank through the fixture plate.This provides only a hold-down force for this particular mountingarrangement and does not provide for the alignment of the fixture platerelative to the subplate.

While these mounting systems have been affective in the field, they canbe costly to produce and install. In this respect, the prior artmounting systems include a receiver bushing that it is bolted to thesubplates by multiple fasteners spaced about the receiver axis. As isreferenced above, the mounting systems can be used for both securing thefixture plate to the subplate and for alignment of the fixture platerelative to the subplate. When the mounting system is used foralignment, it is important to accurately locate the individualcomponents of the system so that they line up with one another. Thus,the axis of the liner and the axis of the receiver must be aligned toone another as close as possible. Further, this alignment must fallwithin a certain tolerance for the resulting fixture plate alignment tobe within a desired tolerance. As a result, each machining operationused to create the mounting opening for the receiver bushing must bealigned to specified tolerances. By utilizing multiple fasteners to holdthe receiver bushing within the subplate, multiple machining operationsare necessary to cut the threads needed to receive these multiplefasteners within the subplate. Further, these cut threads must bealigned with the opening in the receiver bushing. While the position ofthe cut threads may not be critical in all uses of the mounting system(such as mounting systems used only to hold down the fixture plate), thedrilling of the holes and cutting of the threads are still timeconsuming and adds considerable labor cost to the installation of themounting system. Further, the use of fasteners spaced about the receiveraxis only provides spaced hold-down force about this axis and can weakenthe receiver wall in that holes must be drilled therethrough to allowthe passage of these fasteners. Further, there is a competing interestbetween increasing the number of fasteners to increase the hold-downpoint and the weakening of the receiver wall. It has been found thatthree fasteners provide the best balance between contact points,installation cost, and weakening the receiver wall.

SUMMARY OF THE INVENTION

In accordance with the present invention, provided is a mounting systemthat provides the useful benefits of the prior art mounting systems butwhich overcomes many of the shortcomings of the prior art systems. Moreparticularly, provided is a mounting system for securing a fixture plateto a subplate, which eliminates the use of traditional fasteners andreplaces them with an annular gland ring to secure the receiver bushingto the subplate.

More particularly, the mounting system according to the presentinvention can include a receiver bushing arrangement for the mountingsystem for securing a plate to the subplate, which utilizes an annularreceiver bushing having an inner passage extending about a passage axis.The bushing further includes a radially outwardly facing peripheralbushing surface and the inner passage is shaped to receive the shaftportion of a locking shank. This inner passage can also have a matinglocking arrangement allowing the locking arrangement of the shank toselectively interengage with the receiver bushing and secure the shankrelative to the receiver thereby securing the fixture plate to thesubplate.

Further, the outer bushing surface can have at least onereceiver-bearing surface shaped to engage the bearing surface of themounting opening to align the receiver laterally within the mountingopening. The bushing can further include a downwardly facing supportedge to either help maintain the receiver bushing within the mountingopening and/or position the receiver axially within the mountingopening.

According to certain aspects of the present invention, the systemincludes an annular gland ring having an outer diameter threadconfigured to threadingly engage an inside diameter thread in theperipheral surface of the associated mounting opening. The threadedgland ring having a contact edge configured to engage the receiverbushing when the gland ring is tightened in the mounting openinggenerally about the passage axis. The gland ring can be used to forcethe support edge of the receiver against the bottom ledge of themounting opening as the gland ring is tightened into the mountingopening, thereby securing the receiver axially in the mounting openingand/or aligning the receiver bushing axially within the opening.

According to another aspect of the present invention, the mountingsystem can include a receiver bushing with a first and a secondperipheral bushing surface wherein the gland ring can extend about oneof these peripheral bushing surfaces thereby allowing the receiverbushing to extend upwardly towards the upper subplate surface of thesubplate within a central opening in the gland ring.

According to yet further aspects of the present invention, the glandring can be a unified structure with the receiver bushing wherein asingle structure can be threadingly engaged with the subplate.

According to even yet further aspects of the present invention, theannular gland ring includes a snap or retainer ring configured to lockinto an annular groove or ledge in the peripheral surface of theassociated mounting opening. The retainer ring can lock the receiverbushing within the mounting opening in combination with a lower edgewithin the mounting open.

According to further embodiments of this application, the receiverbushing can be a double sided bushing wherein the shank can be insertedinto the receiver bushing from either end. Furthermore, the bushing canhave an extended threaded outer surface that can use a keyway lockingarrangements to lock the bushing rotationally within the plate openingor hole.

These and other objects, features and advantages of the invention willbecome apparent to those skilled in the art upon a reading of thedetailed description of the invention set forth below, taken togetherwith the drawings which will be described in the next section.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention may take physical form in certain parts and arrangementsof parts, and a preferred set of embodiments of which will be describedin detail and illustrated in the accompanying drawings, which form apart of the specification and wherein:

FIG. 1 is a top perspective view in exploded format showing mountingsystems according to the present invention positioned relative to afixture plate, a subplate and a machining table;

FIG. 2 is a top view of a prior art receiver arrangement;

FIG. 3 is a sectional view taken along lines 3-3 in FIG. 2;

FIG. 4 is an exploded, partially sectioned, view of a mounting systemaccording to certain aspects of the present invention;

FIG. 5 is a top view of a receiver arrangement according to anembodiment of the present invention;

FIG. 6 is a sectional view taken along line 6-6 in FIG. 5;

FIG. 7 is an exploded perspective view of the receiver arrangement shownin FIG. 5;

FIG. 8 is an exploded, partially sectioned, view of a mounting systemaccording to other embodiments of the invention of this application;

FIG. 9 is a sectional view of yet another embodiment of the invention ofthis application;

FIG. 10 is a top view of a receiver arrangement according to yet afurther embodiment of the present invention;

FIG. 11 is a sectional view of even yet another embodiment of theinvention of this application;

FIG. 12 is a top view of the receiver arrangement shown in FIG. 11;

FIG. 13 is a sectional view of a further embodiment of the invention ofthis application;

FIG. 14 is a top view of the receiver arrangement shown in FIG. 13;

FIG. 15 is a top view of yet another embodiment of the invention of thisapplication; and,

FIG. 16 is a sectional view taken along lines 16-16 in FIG. 15.

DETAILED DESCRIPTION OF THE INVENTION

Referring now to the drawings wherein the showings are for the purposeof illustrating preferred and alternative embodiments of the inventiononly and not for the purpose of limiting the same, shown in FIG. 1 is ahold-down arrangement wherein multiple mounting systems are used tosecure fixture plates FP1 and FP2 to a single subplate, SP1, which inturn is mounted to a machining table, MT1.

In greater detail, while a machining table is shown in these figures,the invention of this application can be used in connection with anysupport structure, which is known in the art. Further, as is referencedabove, the invention of this application is being described in relationto fixture plates and subplates; however, the invention this applicationcan be used with other mounting structures wherein the plate structureused in this application is merely an example of the use of theinvention of this application.

As is discussed above, the hold-down arrangement, which includesmultiple mounting systems according to the invention of thisapplication, can include both alignment openings AO and/or hold-downopenings HO in the fixture plate, which is to be secured to thesubplate. In this respect, it has been found that in order to properlyalign the fixture plate relative to the subplate, two alignment openingsshould be produced in the fixture plate. These two alignment openingsinclude a liner 22, which will be discussed in greater detail below, andthe hold-down openings HO do not need to include liner 22.

With reference to FIGS. 2 and 3, shown is a prior art receiver bushingarrangement RB. This bushing arrangement is secured to subplate SP1 byway of fasteners F1-F3. In this arrangement, a receiver R includes aplurality of through holes T drilled therethrough with head recesses HRshaped to receive a head portion HP of the fasteners to allow thefasteners to be counter-sunk below an upper surface USP of subplate SP1.As a result, receiver R must include multiple drilling operations and/ormilling operations to both drill the through hole and create the headrecess. As can be appreciated, these drilling operations and/or millingoperations must be performed with a relatively high degree of accuracyin order to secure the receiver bushing to the subplate. In addition,subplate SP1 also needs corresponding threaded openings TO shaped toreceive fasteners F1-F3 and these threaded openings must be in alignmentwith the through holes in the receiver. In addition to the added expenseof the through holes and threaded holes, the drilling of through holes Tin receiver R structurally impacts the annular configuration of thereceiver bushing thereby potentially producing stress points and/ordifficulties in the heat-treated process for this component. As will bediscussed in greater detail below, the receiver includes an innerpassage IP that can include any one of a number of mating-lockingarrangements ML, which are known in the art.

With reference to FIGS. 4-7, shown is a mounting system 10 including ashank 12, with a head portion 14 and a shaft portion 16. Mounting system10 can further include liner 22 having an inner liner passage 24 andinclude a receiver arrangement 30. As is referenced above, liner 22 canbe positioned in fixture plate FP and receiver arrangement is positionedwithin subplate SP such that shank 12 can be used to secure the fixtureplate to the subplate, which will be discussed in greater detail below.

Shank 12 can be any shank known in the art or even shanks that will beknown in the art in the future. Head portion 14 of shank 12 can includea tooling opening 34 that can be any one of a number of toolingopenings. In this particular embodiment, tooling opening 34 is a passagewithin shank 12, which allows a tool to be inserted within the passageto actuate a locking arrangement 36, which can be located near a distalend 38 of shaft portion 16. This particular locking arrangement includesprotuberances 40 and 41 which can be spherical and which are selectivelymovable between an unlocked condition and a locked condition. Shown inFIG. 4, protuberances 40 and 41 are in a locked condition wherein theyare extended outwardly from shaft portion 16. These protuberances can beactivated with a threaded member 44 which can move them between thelocked condition wherein the protuberances extended outwardly of theshaft portion and an unlocked condition wherein protuberances 40 and 41move inwardly into the shaft portion.

Shaft portion 16 can further include a grommet grove 50 shaped toreceive a grommet 52 that can be used to produce a resistance fitbetween shank 12 and receiver arrangement 30. This can be used to holdthe shank relative to the receiver while the shank is activated betweenthe unlocked and the lock conditions. Shaft portion 16 can becylindrical having a radially outwardly shaft surface 56 with a diameter58. Shaft 16 can further include a chamfer 60, which allows the shaftportion to be more easily inserted into liner 22 and/or receiverarrangement 30. In this embodiment, head portion 14 is a circular headportion having a knurling 62 on its outer surface. As will be discussedin greater detail below, shank 12 can be any shank known in the artwithout detracting from the invention of this application, whichincludes other locking arrangements and other head configurations.Further, shank 12 can have a wide range of coatings applied to the headportion and/or the shaft portion including, but not limited to, a blackoxide coating. The material used to produce shank 12 can also be anymaterial known in the art, including carbon steel that is heat-treatedto a Rockwell-hardness on the C scale of between 35 and 60 Rc.

Liner 22 can also be any liner known in the art and can be joined tofixture plate FP by any method known in the art, This includes, but isnot limited to, press fitting the liner into a through hole 70 machinedinto fixture plate FP. In this respect, fixture plate FP can have anupper surface 72 and an oppositely facing lower plate surface 74 whereinthrough hole 70 extends from upper plate surface 72 to lower platesurface 74. Through hole 70 can be sized to allow the press-fittedconnection between the liner and the through hole to secure these partsrelative to one another. However, it should be noted that any othermeans to join the liner to the fixture plate can be used withoutdetracting from the invention of this application. Furthermore, asreferenced above, through hole 70 does not need to include liner 22wherein a complete hold-down arrangement would include some mountingsystems 10 with liners and others without. In fact, it is recommendedthat only two liners be used for each plate joined to a subplate.Further, liner 22 can be made from a wide range of materials including,but not limited to, carbon steel. This material can be heat-treated asis known in the art including a heat treat wherein the liner has aRockwell-hardness on the C scale of between 60 and 70 RC.

Inner passage 24 of liner 22 has a diameter 80 that can be configured tobe only slightly larger than diameter 58 of shaft portion 16 therebyproducing a close fit between shaft 16 and liner 22, which allows themounting system to locate fixture plate FP relative to subplate SP in aknown position. In that these two diameters are closely matched to oneanother, chamfer 60 on distal end 38 can be used to help guide shaftportion 16 into the inner liner passage.

Receiver arrangement 30 in one set of embodiments is a two-piecearrangement including an annular gland ring or nut 100 and an annularreceiver bushing 102. More particularly, subplate SP includes one ormore mounting opening 110, which can be circular openings, having anopening peripheral surface 112 that can extend downwardly from uppersubplate surface 114 towards a bottom extent 116. Mounting opening 110can be a through hole or a pocket wherein in the embodiment shown,bottom extent 116 is at lower subplate surface 118; however, in otherembodiments, the bottom extent is spaced from the lower subplate surfacewithout detracting from the invention of this application. Openingperipheral surface can include multiple sections with or without thesame diameter or size. In the embodiment shown, opening peripheralsurface 112 includes a threaded portion 120 having an inside diameterthread 122 and an opening bearing surface 126. In this set ofembodiments, threaded portion 120 is adjacent to upper subplate surface114 and bearing surface 126 is spaced from both upper surface 114 andlower subplate surface 118. Mounting opening 110 can further include abottom ledge 130 that is spaced from bottom extent 116 and which can beused to align receiver bushing 102 axially, which will be discussed ingreater detail below.

Receiver bushing 102 extends between a top extent 140 and a bottomextent 142, which can define an axial dimension that is less than thethickness of the subplate. In this particular embodiment, the thicknessof the subplate is greater than the height of the receiver bushing.Receiver bushing 102 further includes a downwardly facing support edge146, which can be used to align the bushing axially which will also bediscussed in greater detail below. Receiver bushing 102 further includesa radially outwardly facing peripheral surface 150 having areceiver-bearing surface 152 wherein bearing surface 152 can be utilizedto laterally align the receiver bushing within the mounting opening,which will be discussed in greater detail below. Further, radiallyfacing surface 150 can further include an upper section 154 that caninclude top extent 140 and which can extend inwardly of annular glandring 100. In one embodiment, upper section 151 has a diameter smallerthan bearing surface 152 thereby creating a receiver ledge 160, whichwill be discussed in greater detail below.

Receiver bushing 102 further includes an inner passage 170 shaped toreceive a portion of shaft 16 of shank 12. Inner passage 170 can includea top chamfer 172, which can work in combination with shaft chamfer 60to help align and guide shank 12 into the inner passage. Inner passage170 extends about a passage axis 180 and includes a mating lockingarrangement 182 designed to lockingly engage with the lockingarrangement of shank 12. As discussed above, this locking arrangementcan be any locking arrangement known in the art without detracting fromthe invention of this application. In the locking arrangement shown,protuberances 40 and 41 are aligned to engage conical section 190 ofpassage 170 thereby both securing the shaft in the inner passage andproducing a clamping force between subplate and the shank therebycreating a hold-down force between the fixture plate and the subplate.

Annular gland ring 100 is configured to secure the receiver bushingaxially relative to passage axis 180. More particularly, gland ring 100includes a bottom edge 200 and an oppositely facing top edge 202 with aradially outwardly facing side edge 204 and a radially inwardly facingside edge 206. Edge 204 includes a threaded portion 210, which can coverthe entire edge 204 or a portion thereof. Gland ring further includes atleast one tool receiving arrangement 212, which can include, but is notlimited to, a plurality of tool receiving pockets extending about thetop edge. In one particular set of embodiments, the tool receivingarrangement includes four evenly spaced pockets about top edge 202. Thistool receiving arrangement allows annular gland rings to be fullypositionable below upper support plate surface 114 when it is tightenedagainst bushing 102, thereby allowing lower plate surface 74 to directlyengage upper subplate surface 114. A spanner wrench (not shown) can beused to engage arrangements 212 to tighten or loosen gland ring 100. Ascan be appreciated, an as will be discussed more below in relation toother embodiments, other tool arrangements could be used without.detracting from the invention of this application.

In operation, receiver bushing 102 is positioned in mounting opening 110wherein this can be facilitated by a lower receiver chamfer 220. Thereceiver bushing is urged into mounting opening 110 until support edge146 engages bottom ledge 130 of the mounting opening. The engagementbetween the support edge and the ledge can be used to align the receiverbushing within the mounting opening axially. Similarly, bearing surface126 works in connection with bearing surface 152 to align the receiverbushing laterally within the mounting opening. Once in place, annulargland ring 100 can be positioned in the mounting opening. As with theother components of the invention of this application, annular glandring can include a chamfer 222 to help guide gland ring 100 relative tothe top extent 140 of receiver bushing 102. This can guide the alignmentbetween surfaces 154 and 206 of bushing 102 and ring 100, respectively.Further, when installed, surface 206 can be spaced from surface 154forming a gap therebetween. Gland ring 100 is then threadingly engagedwith threads 122 of opening 110 until a contact edge 230 on bottom 200engages receiver ledge 160 thereby urging receiver bushing 102downwardly into the mounting opening thus forcing downwardly facingsupport edge 146 against bottom ledge 130 of the mounting opening. Thus,annular gland ring 100 maintains the orientation of receiver bushingaxially relative to the passage axis. Once the annular gland ring istightened, the receiver bushing is locked within the mounting openingand the mounting system is in condition for use. While not shown, thereceiver bushing and/or the mounting opening and/or the annular glandring can include an anti-rotation configuration to help prevent therelative rotation of the receiver bushing within the mounting opening.While with the shown locking arrangement, rotation is not a concern,other locking arrangements could necessitate the use of an anti-rotationconfiguration within the receiver arrangement. This can include, but isnot limited to, O-rings producing a resistance fit, locking key slots,knurling and other methods known in the art.

With reference to FIG. 8, yet another set of embodiments are shown.However, in the interest of brevity, the discussions with reference toFIG. 8 are limited to the differences in the locking arrangement.Further, like components are referenced with the same reference numbersdiscussed above. More particularly, mounting system 250 includes a shank252 having a head portion 254 and a shaft portion 256. In thisembodiment, shank 252 includes a threaded locking arrangement 260configured to lockingly engage a threaded mating locking arrangement262. In order to facilitate the threaded locking between the shank andthe receiver bushing, head portion can include any tool-receivingconfiguration known in the art. In this particular shown embodiment, thehead portion includes a hex head configuration allowing a wrench toengage and rotate shank 252.

With reference to FIG. 9, shown is yet another set of embodiments of theinvention of this application. In this respect shown is receiver bushing300 which has a unified structure between the receiver bushing and theannular gland ring. More particularly, receiver bushing 300 includes athreaded portion 302 configured to threadingly engage with ID threads122 of mounting opening 110. As can be appreciated, receiver bushing 300can include tool receiving arrangement 312 that is larger in that a topsurface 314 of bushing 300 is larger than top surface 202 of gland ring100. While the configuration of bushing 300 is shown to interengage witha mounting opening configured similar to mounting Opening 110, this isnot required.

With reference to FIG. 10, shown is a receiver arrangement 30A accordingto yet another set of embodiments of the invention of this applicationwhich includes a tool receiving arrangement 212A in a gland ring 100A.In this embodiment, arrangement 212A includes slotted pockets positionedabout top surface 202A of gland ring 100A. In one particular set ofembodiments, the tool receiving arrangement includes four evenly spacedslotted pockets positioned about top edge 202A.

With reference to FIGS. 11 & 12, shown is yet a further set ofembodiments of the invention of this application. Again, in the interestof brevity, common reference numbers are utilized from one or moreembodiments above, but this is not to be interpreted as a limitation ofthis set of embodiments. More particularly, shown is a receiver bushingarrangement 400 having a receiver bushing 402 and an annular gland ring404.

More particularly, bushing 402 extends along a bushing axis 408 betweena top extent 410 and a bottom extent 412 which define an axial height414 of bushing 402. In the shown embodiment, the thickness of subplateSP is greater than height 414. Receiver bushing 402 further includes adownwardly facing support edge 420 that can be at lower extent 412 whichis shown; however, edge 420 could be positioned anywhere along the axis408 between the top and bottom extents. Support edge 420 can at least inpart align bushing 402 axially and/or retain bushing 402 within themounting opening which will also be discussed in greater detail below.Receiver bushing 402 further includes a radially outwardly facingperipheral surface 430 having a receiver-bearing surface 432 whereinbearing surface 432 can be utilized to laterally align the receiverbushing within the mounting opening,

In this respect, shown is a mounting opening 450, which can be acircular opening, having an opening peripheral surface 452 that canextend downwardly from upper subplate surface 114 towards a ledge 454.However, mounting opening 450 could be a through hole or a pocketwherein in the embodiment shown; mounting opening 450 can extend to abottom extent 456 at lower subplate surface 118. Opening peripheralsurface 452 can include multiple sections with or without the samediameter or size. In the embodiment shown, opening peripheral surface452 includes an opening bearing surface 460, a lower portion 462 and aring groove 464. In the embodiment shown, bearing surface 460 has adiameter greater than lower portion 462 wherein ledge 454 separatesthese two sections.

Receiver bushing 402 further includes an inner passage 170 shaped toreceive a portion of shaft 16 of shank 12 as described above. However,any inner passage configuration can be used with this embodiment withoutdetracting from the invention of this application.

Receiver bushing 402 includes receiver bearing surface 432 and caninclude other surfaces such as a lower lead-in portion 472 that can havea lead-in chamfer 474. As can be appreciated, lower portion 472 can helpalign bushing 402 with opening 450 to aid in the assembly of thiscomponent. Once receiver bearing is positioned within opening 450,annular ring 404 can be positioned within groove 464 to generallymaintain bushing 402 relative to subplate SP axially relative to axis408. In this respect, the spacing between ledge 454 and groove 464 canbe greater than height 414 such that there is a gap between top extent410 and ring 404. Thus, when the bearing and ring are installed, therecan be some axial play. However, when shank 12 is tightened withinopening 170, top extent 410 is urged against ring 404. Therefore, whilebearing 402 is generally fixed relative to subplate SP, there can besome relative movement therebetween before the shank is tightened.However, once the shank is tightened within the bearing, the play can beremoved and the engagement between the bearing the ring prevents axialmovement relative to the subplate. It is preferred that at least some ofthe receiver bushings have no play to help lock the plate to thesubplate.

In yet other embodiments, groove 464 can be a downwardly facing ledgewherein the annular ring is locked between the downwardly facing ledgeand the upper extent of the receiver bushing.

Annular ring 404 can be any locking ring known in the art including, butnot limited to, a snap ring or a retainer ring made of spring steel thatis sized to fit within groove 464 or the ledge. Ring 404 can includeopenings 480 shaped to receive snap ring pliers that can be used toinstall and/or remove the snap ring from the subplate. Further, ring 404can be designed to prevent disassembly of receiver bushing arrangement400. In yet other embodiments, arrangement 400 can further include aspring washer (not shown) between ledge 454 and support edge 420 toprovide an upward support force to maintain receiver bushing 402 incontact with annular ring 404.

With reference to FIGS. 13 & 14, yet another set of embodiments isshown. As an initial note, while this embodiment is being shown in asimilar arrangement as arrangement 400, this embodiment can be utilizedwith any of the embodiments in this application. In greater detail,shown is a receiver bushing arrangement 500 having a receiver bushing402, an annular gland ring 404 and a second annular gland ring 502.

More particularly shown is a mounting opening 510 that has an openingperipheral surface 512 that can extend downwardly from upper subplatesurface 114 towards bottom subplate surface 118. Again, mounting opening510 could be a through hole or a pocket wherein in the embodiment shown;mounting opening 510 can extend to a bottom extent 514 at lower subplatesurface 118. Mounting opening 510 includes ring groove 464 and a ringgroove 520 wherein annular gland ring 502 can be configured to bereceived in groove 520. Thus, rings 404 and 502 can generally maintainreceiver bushing 402 axially within the mounting opening. As withreceiver bushing arrangement 400, this embodiment can have some playbetween rings 404, 502 and bushing 402 such that tightening shank 12will urge bushing 402 into engagement with ring 404. However, rings 404and 502 maintain bushing 402 within the mounting opening.

As with the embodiments described above, groove 464 can be a downwardlyfacing ledge and groove 520 could be an upwardly facing ledge whereinrings 404 and 502 can hold the receiver bushing between these opposingledges.

In yet other embodiments, the receiver bushing can be allowed to moverlaterally within the opening when the particular bushing and shankarrangement is not an alignment opening. Thus bearing surface should notbe limited to only those involved in close tolerance fits betweenadjacent components.

As with other embodiments of this application, an anti rotation pin 530can be utilized in a pin pocket 532 to prevent rotation of receiverbushing 402 relative to subplate SP. Pin pocket 532 can be formed byarcuate notch 540 in bushing 402 and arcuate notch 542 in subplate SP.While the pin can be dimensioned to have a resistance fit in pin pocket532, it can also be configured to be trapped between rings 404 and 502.Further, the anti rotation device can be formed by other devices knownin the art including, but not limited to, O-rings producing a resistancefit, other types of locking key slots, knurling and other methods knownin the art.

In even yet further embodiments of this application, the receiverbushing can include an inner passage that includes oppositely facinglocking arrangements designed to lockingly engage with the lockingarrangement of a shank extending into the bushing from either side.Thus, the bushing can be a double sided bushing wherein lockinginterengagement is possible from both sides of the subplate.

More particularly, and with special reference to FIGS. 15 & 16, areceiver bushing 602 is shown which can have any of the featuresdescribe above. Busing 602 includes an inner passage 610 shaped toreceive a portion of shaft 16 of shank 12 from either a top side 612 ora bottom side 614 of the bushing. As with the other embodiments, passage610 can include a chamfer, but in this set of embodiments, bushing 602can include a top chamfer 620 and a bottom chamfer 622 in that thisbushing is a double sided bushing. Inner passage 610 extends about apassage axis 630 and includes two mating locking arrangements 640 and642. As with the other embodiments, these locking arrangements aredesigned to lockingly engage with the locking arrangement of shank 12and can be any locking arrangement of this application. Further, passage610 can include a spacing 646 between locking arrangements 640 and 642to allow for the function of the locking arrangements. Further, thisspacing can allow for different thickness of subplate SP such that astandard shaft can be used regardless of the material thickness of thesubplate. Further discussion of the locking arrangement will not bediscussed in this section in the interest of brevity in that it isdiscussed above.

The bushing of these embodiments can include any configuration to securethe bushing to subplate SP including those discussed above. Further, aswith all embodiments of this application, the bushing can include anouter threaded portion 650. In the embodiment shown, outer thread 650can extend along a substantial portion of a bushing outer surface 652and be configured to thrcadingly engage with a threaded bore 654 insubplate SP. Further, bushing 602, in the threaded embodiment shown, caninclude one or more tool notches 660 to allow the threaded bushing to bethreaded into the subplate from either upper subplate surface 114 orfrom lower subplate surface 118. While tool notches 660 are only shownon side 612, these could be on side 614 or on both sides of the bushingwithout detracting from the invention and the description and figures ofthis application are not intended to limit the invention.

Bushing 602 can further include a locking arrangement to lock thebushing within the subplate at a desired position therein and preventunwanted movement or rotation of the bushing relative to the subplate.This can include any locking arrangement of this application and caninclude, but is not limited to, one or two jam nuts (not shown), an antirotation pin as described above, thread locking technology known in theart, and/or a key locking systems such as the ACME key locking system.In the embodiment shown, bushing 602 can include one or more lockingkeyways or grooves 670 circumferentially spaced about axis 630. Withthese grooves, one or more keys 672 can be forced into these groovesonce the bushing is in the desired position within the subplate. Thesekeys damage the threads and prevent unwanted unthreading of the bushingrelative to the opening.

As can be appreciated, the double sided bushing of these embodiments canincrease flexibility in the tooling system. This can include thesubplate having the ability to have components mounted to either sidewithout the need for separate mounting openings. Further, even insituations wherein the subplate is mountable directly to a machiningtable or one surface is fully cover when in place, each side of thesubplate could be configured for a different set up wherein one subplatecould be used for multiple set ups or operations. As can be appreciated,this can double the versatility of the subplate. Yet even further, thebushing can then have one locking arrangement or embodiment extendingfrom one side and a different locking arrangement or embodimentextending from the other side wherein a single bushing could work withmultiple locking arrangements wherein the end use can choose whicharrangement is on the working side of the system such that thearrangement that is on the non-working side would be dormant.

The receiver bushings of this application can be made from any materialknown in the art, which includes carbon steel. Further, the receiverbushing can have any treatment known in the art including a black oxidecoating and a hardness on the Rockwell-C scale of between 45 and 60 Rc.

While considerable emphasis has been placed on the preferred embodimentsof the invention illustrated and described herein, it will beappreciated that other embodiments, and equivalences thereof, can bemade and that many changes can be made in the preferred embodimentswithout departing from the principles of the invention. Furthermore, theembodiments described above can be combined to form yet otherembodiments of the invention of this application. Accordingly, it is tobe distinctly understood that the foregoing descriptive matter is to beinterpreted nearly as illustrative of the invention and not as alimitation.

1. A mounting system for selectively mounting a fixture relative to amachining table, the system comprising: a tooling plate having a toolingplate first surface and an oppositely facing tooling plate secondsurface, the tooling plate being joinable to an associated machiningtable, the tooling plate including at least one mounting hole extendingbetween the first and second surfaces, the at least one mounting holehaving a mounting opening peripheral surface extending generally betweenthe first and second tooling plate surfaces, the at least one mountinghole further including a bearing surface between the first and secondtooling plate surfaces and a locking feature between the first andsecond tooling plate surfaces; a fixture plate having a fixture plateworking surface and an oppositely facing fixture plate mounting surface,the working fixture plate surface being configured to receive anassociated fixture or tooling and the mounting fixture plate surfaceconfigured to engage the first tooling plate surface, the fixture platehaving at least one though hole alignable with the at least one mountingopening of the tooling plate; a shank having a shaft portion extendingfrom a head portion to a distal end spaced from the head portion, theshaft portion extending along a shaft axis between the head portion andthe distal end and having a radial shaft surface coaxial with the shaftaxis, the shaft surface being smaller than the at least one through holein the fixture plate allowing the shaft portion to pass through the atleast one through hole of the fixture plate and enter the at least onemounting opening when the fixture plate is aligned with the toolingplate, the shank further including a locking arrangement selectivelypositionable between a locked condition and an unlocked condition; adouble sided annular receiver bushing having a first end and a secondend and including an inner passage extending about a passage axisbetween the first and second ends, the bushing further including aradially outwardly facing peripheral bushing surface, the inner passagebeing shaped to receive the shaft portion of the shank from eitherbushing end when the fixture plate is aligned with the tooling platesuch that the shaft axis is closely aligned with the passage axis andthe passage having a first mating locking arrangement facing the firstbushing end and a second mating locking arrangement facing the secondbushing end, the locking arrangement of the shank being selectivelyinterengage with one of the first and second mating locking arrangementsof the receiver bushing to drawn the shank down into the inner passageas the locking arrangement is moved from the unlocked condition to thelock condition thereby securing the shank relative to the receiverbushing and securing the fixture plate to the tooling plate, theoutwardly facing bushing surface having a receiver bearing surfaceshaped to engage the bearing surface of the at least one mountingopening; the receiver bushing being generally locked or lockable withinthe at least one mounting opening axially and the receiver bushing beingaligned laterally in the at least one opening by the engagement betweenthe bearing surface of the at least one mounting opening and theoutwardly facing surface.
 2. The mounting system of claim 1, wherein thebearing surface and the axial locking is a threaded engagement betweenthe outer surface of the receiver bushing and the at least one mountinghole.
 3. The mounting system of claim 1, further including an annulargland ring, the annular gland ring providing the axial locking of thereceiver bushing within the at least one hole.
 4. The mounting system ofclaim 3, wherein the annular gland ring includes a retainer ring and theat least one hole includes a locking groove extending about the at leastone mounting hole.
 5. The mounting system of claim 3, wherein theannular gland ring is a retainer ring and the locking feature furtherincludes a downwardly facing locking ledge extending about the at leastone mounting hole, the at least one hole extending past the ledge. 6.The mounting system of claim 1, wherein the receiver bushing furtherincludes at least one locking keyway and the system includes at leastone locking key configured to enter the at least one keyway to preventrotation of the receiver bushing within the at least one opening.
 7. Themounting system of claim 1, wherein the at least one locking key is aremovable pin.
 8. A mounting arrangement for securing fixture plate toan underlying structure, the mounting arrangement comprising a subplatehaving a first subplate surface and an oppositely facing second subplatesurface, the subplate being configured to be attachable to an associatedunderlying structure, the subplate including at least one mounting holeextending into the first subplate surface toward the second subplatesurface, the at least one mounting hole having an opening peripheralsurface between the first subplate surface and the second subplatesurface, the at least one mounting hole further including a lockingfeature spaced between the first and second subplate surfaces andfurther including an hole bearing surface, the mounting arrangementfurther including a double sided annular receiver bushing having aninner passage extending therethrough from a first bushing end to asecond bushing end and about a passage axis, the bushing furtherincluding a radially outwardly facing peripheral bushing surface, theinner passage being shaped to receive an associated shaft portion of anassociated shank from either the first or the second bushing ends, thepassage having a first mating locking arrangement allowing a lockingarrangement of the associated shank to selectively interengage with thereceiver bushing from the first bushing end and drawn the associatedshank into the passage and an associated fixture plate against the firstsubplate surface, the passage further including a second mating lockingarrangement allowing a locking arrangement of an associated shank toselectively interengage with the receiver bushing from the secondbushing end and drawn the associated shank into the passage and anassociated fixture plate against the second subplate surface, the outerbushing surface having at least one receiver bearing surface shaped toengage the hole bearing surface of the subplate and align the receiverlaterally in the mounting hole and control relative lateral movementbetween the receiver bushing and the subplate, the receiver bushingbeing generally locked or lockable within the at least one mounting holeaxially and the receiver bushing being aligned laterally in the at leastone hole by the engagement between the bearing surface of the at leastone mounting hole and the outwardly facing surface.
 9. The mountingarrangement of claim 8, wherein the bearing surface and the axiallocking is a threaded engagement between the outer surface of thereceiver bushing and the at least one mounting hole.
 10. The mountingarrangement of claim 8, wherein the axial locking is a threadedengagement between the outer surface of the receiver bushing and the atleast one mounting hole.
 11. The mounting arrangement of claim 8,further including an annular gland ring, the annular gland ringproviding the axial locking of the receiver bushing within the at leastone hole.
 12. The mounting arrangement of claim 11, wherein the annulargland ring includes a retainer ring and the at least one hole includes alocking groove extending about the at least one mounting hole.
 13. Themounting arrangement of claim 11, wherein the annular gland ring is aretainer ring and the locking feature further includes a downwardlyfacing locking ledge extending about the at least one mounting hole, theat least one hole extending past the ledge.
 14. The mounting arrangementof claim 8, wherein the receiver bushing further includes at least onelocking keyway and the arrangement includes at least one locking keyconfigured to enter the at least one keyway to prevent, rotation of thereceiver bushing within the at least one opening.
 15. The mountingarrangement of claim 14, wherein the at least one locking key is aremovable pin.
 16. A receiver bushing for a mounting system used tosecure a fixture plate to a tooling plate, the bushing arrangementcomprising a bushing locking arrangement to accurately attach thebushing to an associated hole in an associated tooling plate, theassociated tooling plate having a first tooling plate surface and anoppositely facing second tooling plate surface, the associated toolingplate being configured to be attachable to an associated underlyingstructure such as a machining table, the associated hole extending fromthe first associated tooling plate surface to the second associatedtooling plate surface, the receiver bushing further including an innerpassage extending about a passage axis between a first bushing end and asecond bushing end, the inner passage being shaped to receive anassociated shaft portion of an associated shank from either the first orthe second bushing ends, the passage having a first mating lockingarrangement allowing a locking arrangement of the associated shank toselectively interengage with the receiver bushing from the first bushingend and drawn the associated shank into the passage and an associatedfixture plate against the associated first subplate surface, the passagefurther including a second mating locking arrangement allowing a lockingarrangement of an associated shank to selectively interengage with thereceiver bushing from the second bushing end and drawn the associatedshank into the passage and an associated fixture plate against theassociated second subplate surface.
 17. The receiver bushing of claim16, wherein the receiver bushing is selectively removable from theassociated tooling plate.
 18. The receiver bushing of claim 16, whereinthe first and second mating locking arrangements are opposing conicalsurfaces spaced from one another by a set gap.
 19. The receiver bushingof claim 18, wherein the set gap is a function of the material thicknessof the associated tooling plate.
 20. The receiver bushing of claim 18,wherein the outer bushing surface has at least one receiver bearingsurface shaped to engage the associated hole and align the receiverbushing laterally in the associated mounting hole to control relativelateral movement between the receiver bushing and the tooling plated.21. The receiver bushing of claim 20, wherein the bearing surface andthe bushing locking arrangement is a threaded engagement between theouter surface of the receiver bushing and the at least one mountinghole.
 22. The receiver bushing of claim 18, wherein the receiver bushingfurther includes at least one locking keyway and at least one lockingkey configured to enter the at least one keyway to prevent rotation ofthe receiver bushing within the associated hole.
 23. The receiverbushing of claim 22, wherein the at least one locking key is a removablepin.